WO2018091041A1

WO2018091041A1 - Switchgear cabinet arrangement and a corresponding operating method

Info

Publication number: WO2018091041A1
Application number: PCT/DE2017/100982
Authority: WO
Inventors: Markus Hain; Heiko Holighaus; Siegfried Boehme
Original assignee: Rittal Gmbh & Co. Kg
Priority date: 2016-11-17
Filing date: 2017-11-16
Publication date: 2018-05-24
Also published as: EP3497762B1; DE102016122157B3; EP3497762A1; PL3497762T3

Abstract

The invention relates to a switchgear cabinet arrangement (1) which has at least one switchgear cabinet housing (2) with an electrical switchgear installation (3), and further has a man/machine interface (4) with an optical display (5) by way of which a switching plan (6) of the electrical switchgear installation (3) is displayed, wherein at least one component (8) of the electrical switchgear installation (3) has a machine-readable identifier (10) by way of which the component (8) is unambiguously associated with a component symbol (9), which identifies said component, in the switching plan (6), wherein a data interface (7) is formed between the man/machine interface (4) and the electrical switchgear installation (3), and a state of the component (8) is displayed by way of the optical display (5) on the basis of an optical state of the component symbol (9). The invention further describes a corresponding operating method for a switchgear cabinet arrangement of this kind.

Description

Switch cabinet arrangement and a corresponding operating method

The invention is based on a switchgear assembly which has at least one

Control cabinet housing having an electrical switchgear.

DE 10 2006 011 127 B4 describes a control cabinet arrangement with at least one control cabinet and a control cabinet monitoring device, which is designed to monitor schalkspezifi shear state variables including temperature, humidity, access, vibration, smoke, electricity and / or voltage and at least one

Control cabinet has arranged central monitoring and control components, which are brought or brought into data transmission connection with the state variables monitoring sensors and controllable actuators and / or message units.

At least one central monitoring and control component is designed as a base station with a wireless transmission / reception interface. Furthermore, at least some of the sensors are equipped with a wireless transmitting and / or receiving interface for wireless data transmission between the sensors and the base station. The base station and the sensors are provided with an identification tag, which is stored in a memory of the base station and the relevant sensor. Furthermore, it is provided that interposed sensors are designed for outputting a message to the base station at specific time intervals, wherein the base station for monitoring the function

is evaluated.

DE 101 19 637 AI describes a control cabinet monitoring system, the

Monitoring of the control cabinet itself related functions is designed and a central monitoring unit and at least one so that it has a

Data transmission link in data transmission connection standing or brought, a respective function or function group of similar functions associated with decentralized unit. For a control cabinet monitoring device is the central

Monitoring unit as a main unit with at least one standardized interface for provided a wireless data transmission. The data transmission path comprises at least one wireless transmission path, wherein the at least one decentralized unit is likewise provided with at least one standardized further interface for the wireless transmission adapted to the interface of the main unit.

From DE 100 65 898 C2 an electrically operable locking device for a door of a control cabinet is known which has an electromechanical actuator unit, at least one attached to a cabinet frame first locking member and at least one cooperating with this, mounted on the door second locking member, wherein one of two locking parts is provided with a limited movable latch, with a locking element of the other

Locking part for locking or opening the door in or out of engagement can be brought.

The recorded in the cabinet housings of the cabinet assembly electrical switchgear are often constructed highly complex, with the shading of the individual components of the electrical switchgear sometimes changed over the life of the electrical switchgear, for example, by in the wake of

Initial direction of the electrical switchboard additions or modifications of the electrical switchgear are made. This has the consequence that for a working at the electrical switchgear technicians often inadequate

Documentation of the structure of the electrical switchgear and the changes made by him found electrical shading of the components of the electrical switchgear is not readily traceable.

It is therefore an object of the invention to further develop a cabinet assembly of the type described above such that it has a high service friendliness. This object is achieved by a switching cabinet arrangement with the features of claim 1. The independent claim 10 relates to a corresponding operating method for such a control cabinet arrangement. The dependent claims relate to advantageous embodiments of the invention.

Accordingly, it is provided that the control cabinet arrangement in addition to the at least one control cabinet housing with the electrical switchgear furthermore has a human-machine interface with a visual display, via which a circuit diagram of the electrical switchgear is displayed, wherein at least one component of the electrical switchgear has a machine-readable identifier about which the component a this

characterizing component symbol is uniquely assigned in the circuit diagram. A data interface is formed between the man-machine interface and the electrical switchgear. A state of the component is indicated by an optical state of the component symbol via the visual display.

Preferably, at least all relevant for the function of the electrical switchgear active and passive components, in particular those that may require maintenance or wear, a clearly characterizing them

machine-readable identifier. In principle, however, the use of the machine-readable identifier is not limited to any particular components of the electrical switchgear. Furthermore, the components provided with the machine-readable identifier, in particular the active components, can have at least one sensor via which a state of the relevant component is determined. Such a condition can

For example, be a temperature, a power loss, a power consumption or any other technical measurement. The measured values acquired by the various sensors of the various components can be detected, collected and optionally stored and / or evaluated by a CMC system known from the prior art. The human-machine interface can therefore, for example, have a radio interface to a CMC module of the control cabinet arrangement. However, it can also be provided that the CMC module is read out via a processor, which in turn communicates via an interface, for example a radio interface, communicatively with the human-machine interface for exchanging the acquired measurement data or data derived therefrom. The processor can also be part of the human-machine interface, for example. Instead, the individual sensors of the components may each have their own interfaces, for example radio interfaces, via which they are directly connected to the human-machine interface.

The circuit diagram can be stored in a memory, which is either assigned to the relevant respective electrical switchgear enclosure cabinet, or deposited in a decentralized storage system. For example, the memory at a Schaltplanasche on the inside of the door of the switchgear having

Switching cabinet arranged or be read from the outside of the cabinet housing memory. For this purpose, the memory can be integrated, for example, in the door lock. The memory may be about a memory in the door lock of the relevant

Be cabinet housing that is part of an access control system of the door lock, after which an operation of the door lock is possible only after successful authorization. The access control system can in this case also be set up to allow access to the memory also only after successful authorization.

The man-machine interface can, for example, a device for

contact-free reading of the machine-readable identifier of each of the electrical switchgear concerned circuit diagram or have such a device. A user can thus read in by means of the man-machine interface the machine-readable identifier of a specific component of the electrical switchgear and can display the arrangement of the relevant component in the circuit diagram via the optical display. For this purpose, the component symbol characterizing the relevant electrical component in the displayed circuit diagram can be highlighted or otherwise be made visually recognizable, so that the user immediately the electrical shading of the relevant component is visible and possibly other technical values, such as the component-related measured values associated with the symbol or otherwise assigned assigned via the optical display.

If necessary, with the optically highlighted display of the characterizing

Component symbol at least one current or historical measured value, which relates to the associated component, are displayed via the optical display. Furthermore, if present, a documentation of changes made to the electrical switchgear relating to the evaluated component can be displayed via the optical display.

The man-machine interface can be a bidirectional interface, via which at least one actual value of the state of the component, for example a sensory measured value, is forwarded to the man-machine interface and optionally displayed via the optical display, and / or via an input of the man-machine interface detected setpoint of the state of the component to the component or a component controlling the control unit are forwarded inside.

In the event that a change in the electrical switchgear has been made on the input of the man-machine interface, for example, that a change in a desired value of the state of one of the components of the electrical switchgear is done, this change in the circuit diagram by a corresponding Modification of the circuit diagram are deposited, so that the change or an updated circuit diagram, for example, for future maintenance of the electrical switchgear is available comprehensible.

The optical state of the component symbol can be manipulated via the man-machine interface, wherein, corresponding to a successful manipulation of the Condition of the component symbol generates a state change signal and is forwarded to the component or a component controlling the control unit. The state of the component symbol is not limited to any particular states. Thus, for example, it may be provided that the component symbol is a common electronic circuit symbol to which a measured value is assigned, for example a current one

Current consumption of the relevant electronic component. The manipulation of the respective characteristic component symbol can therefore be in the variation of the measured value associated with the component symbol, so that a setpoint value for the measured variable and... By the variation of the measured actual value of the measured variable

Accordingly, a control command is forwarded to the electrical switchgear, which leads to the adaptation of the measured actual value to the manipulated setpoint.

The electrical switchgear can in particular in the interior of the at least one

Control cabinet housing to be received, wherein a sensor arrangement is arranged with at least one sensor to detect at least one measured value of the at least one electronic component of the electrical switchgear, wherein the measured value or an optical output derived therefrom on the optical display locally issued assigned to the component component symbol identifying the component is.

If the electrical switchgear has at least one component with a machine-readable identifier that uniquely identifies this component, the human-machine interface can be set up to read the identifier and identify the component identified by the identifier, the component symbol representing the component in the optical component visually highlight the circuit diagram displayed and / or output at least one component or characteristic value relating to the component via the optical display. Identification of the component identified by the identifier may, for example, be done by matching the identifier with a data set containing the circuit diagram, including a unique association of all the identifiers with the associated ones representing

Component symbols in the formwork diagram. The component may be, for example, a door lock of the control cabinet, which has an actuator for adjusting the door lock between an open position and a closed position, wherein the door lock an electronically controlled

Lock bolt which assumes a locking position in its first state in which it locks the actuator in the closed position, and in its second state assumes a release position in which it releases the actuator. If the control cabinet arrangement is set up so that an actuation of the lock bolt is only permitted via the man-machine interface, an access control to the relevant control cabinet housing is possible in such a way that the authentication of the group of persons permitted to access the control cabinet housing is limited to the human body. Machine interface is shifted, for example, by the access to the man-machine interface can only be done after a successful login.

The component can furthermore be, for example, a PDU, via which at least one further electrical component of the electrical switchgear is supplied with electrical energy, and with which the at least one state relating to the further component, in particular a measured variable, is detected and transmitted to the human via the data interface. Machine interface is forwarded.

The switchgear assembly may comprise a monitoring device configured to monitor the respective state of a plurality of the components of the electrical switchgear and, if a state change of at least one of the components is detected, the optical state of the respective characterizing one

Component icon in the schematic to update, so an updated

Wiring diagram is generated.

The cabinet assembly may further include a processor with read-write access to a non-volatile memory, wherein the memory in or on the at least one cabinet housing with the electrical switchgear, in particular on one of the Arranged inside a door of the cabinet housing fixed Schaltplanasche, wherein the processor is adapted to write the updated circuit diagram in the non-volatile random access memory.

The man-machine interface can furthermore be set up to detect a change in the electrical switchgear, in particular the addition or removal of an electrical component, and to deposit this change accordingly in the circuit diagram. For this purpose, the human-machine interface may have, for example, an input, such as a touch-sensitive display on which the circuit diagram is displayed, or an optical detection device, such as a photo module having a component detection. The component recognition can be set up to detect the machine-readable identifier of the components of the electrical switchgear and to detect a change in the component assembly by matching it with the circuit diagram.

According to another aspect, the invention relates to an operating method for a

Control cabinet arrangement of the kind described above, the operating method comprising the steps:

Selecting a particular electrical component from a plurality of electrical components of the electrical switchgear of the switchgear assembly by reading in the identifier of the particular component; and

Displaying the schematic on an optical display of the man-machine interface, wherein a state of the component is indicated by an optical state of the component symbol indicative of the particular component via the visual display. The displaying may include retrieving the state of the particular component directly from the particular component or from a monitoring device in which current and / or historical state data is maintained at least with respect to the particular component. The particular component may be self-monitoring with corresponding sensors and memory for storing state data. Alternatively, separate sensors monitoring the relevant component may be provided with a corresponding evaluation system, for example a CMC system.

For a change in the state of the particular component can

Status change data or state change commands input via the human-machine interface and the data interface to the specific component directly or indirectly via a controlling this control unit, which is part of the electrical switchgear, forwarded.

The particular component may be a door lock with an electronically controllable lock latch, which in its first state assumes a locking position in which it locks an actuator, and in its second state assumes a release position in which it releases the actuator, the method further the

Entering a release command or a lock command via the man-machine interface, whereupon the lock latch in accordance with the command in the

Release position or the locking position is transferred.

The method may further include changing the state of the particular component and storing the changed state by changing the optical state of the component

feature component symbol in the schematic.

The method of operation may further comprise continuously or periodically monitoring the respective state of a plurality of the components of the electrical switchgear and, if in the monitoring, a state change of at least one of the Components have been detected, the continuous or periodic updating of the respective optical state of the respective identifying component symbol in the circuit diagram.

The method may include storing the updated circuit diagram after a successful change of state of at least one component of the electrical switchgear in a non-volatile read-write memory, in or on the at least one cabinet housing with the electrical switchgear, in particular on one of the inside of a door the Schaltschrankgehäuses mounted Schaltplanasche is arranged.

Further details of the invention will be explained with reference to the following Figure 1. This shows schematically an exemplary cabinet assembly 1, the three

Control cabinet housings 2 is constructed. In the middle in the representation

Control cabinet housing 2 is an electrical switchgear added, consisting of various active and passive components 8, which each have at least one variable state. The components 8 may be, for example, switches that can be switched between an on state and an off state. The components may have, for example, a variable power consumption, a variable power loss or a variable temperature. The variable states of the components 8 of the electrical switchgear 3 are not limited to any particular states as long as they are physically measurable.

A man-machine interface 4 is designed as a tablet, which has on its front side an optical display 5 in the form of a display. On the optical display 5, a circuit diagram 6 of the electrical switchgear 3 is displayed. The current circuit diagram 6 can be stored locally or locally. For example, the man-machine interface 4 may include a memory in which the circuit diagram 6 is stored. Furthermore, the electrical switchgear 3 itself or the cabinet housing 2 may have a memory in which the circuit diagram is deposited. The circuit diagram can also be stored in a data cloud be. In the present case it is provided that at least one on the inside of the

Cabinet door 19 arranged Schaltplantasche 18 has a memory 17 which is designed as a read / write memory. On this the current circuit diagram 6 can be stored.

At least one of the components 8 of the electrical switchgear 3 has a

machine-readable identifier 10, for example a QR code. If, as in the present case, the human-machine interface 4 is a tablet, it can have, for example, a camera module with which the QR code 10 can be read out. A

Control cabinet monitoring device 15 is designed as a CMC module which collects status data of the various components 8 of the electrical switchgear 3 and makes it available via a processor 16 which has an optional radio module. The control cabinet monitoring device 15 is communicatively connected to various sensors 11 for the acquisition of the status data, which detect the status data of the various components 8 and make them available to the monitoring device 15.

After the optical display 5 of the human-machine interface 4 of each of the electrical switchgear 3 relevant circuit diagram 6 has been displayed, for example by the human-machine interface 4 accesses the memory 17 in the Schaltplanasche 18, with the help of man Machine interface 4, the machine-readable identifier 10 of a particular component 8 are read out. It is then provided that on the optical display 5 that the component 8 characterizing

Component symbol 9 is optically highlighted in the circuit diagram 6 on the display 5. Alternatively or additionally, it may be provided that a measured value relating to the component 8 is shown. For this purpose, the human-machine interface 4 can access the monitoring device 15 via the interface of the processor 16, in which a measured value indicative of the relevant component 8 with the read-out identifier 10 is stored. According to the invention, however, embodiments are also conceivable which dispense with the display of measured data in the circuit diagram. Accordingly, in such embodiments, the use of a monitoring device 15 or the reading of such

Monitoring device not required. In the simplest case of the invention, the cabinet assembly 1, for example, only a memory 17, in which a digital circuit diagram of the electrical switchgear 3 is deposited, located in the relevant

Control cabinet housing 2 is located. After reading in a machine-readable identifier 10 of one of the components 8, the component symbol 8 characterizing the component symbol

9 in the circuit diagram 6 are visually highlighted on the optical display 5, so that, for example, a service technician quickly gets information about how the read-out component 8 is connected in the electrical switchgear 3. Will the electric

Switchgear 3 changed, this change can be recorded in the digital circuit diagram 6 accordingly and the circuit diagram 6 stored in the memory 17 or updated so that an up-to-date circuit diagram 6 is present.

Furthermore, it can be provided that the cabinet door 19 has a door lock 12 with an actuator 13, which can be controlled via an electromechanical

Lock bolt 14 lockable and is releasable. For this purpose, for example, the door lock 12 have the machine-readable identifier 10, so that after reading the identifier

10 of the door lock 12 and possibly after authorization via the man-machine interface 4 via the man-machine interface 4 of the lock bolt 14 can be actuated.

In addition, it is possible to predetermine setpoint values for individual components 8 via the man-machine interface 4. For example, in the already

described manner, the identifier 10 of the relevant component 8 are read in via the man-machine interface 4 and, after on the circuit diagram 6 on the display 5 of the interface 4 that the component in question 8 characterizing

Component symbol 9 has been identified for the user, by manipulating the symbol 9, a new setpoint for the component 8 will be specified. The manipulation For example, it may be that a value added to the symbol 9 or stored in the symbol 9, for example a power consumption, is varied via an input of the human-machine interface 4, for example a touch-sensitive input of a tablet. Via the data interface 7 between the man-machine interface 4 and the electrical switchgear 8, possibly with the interposition of a processor 16 with a data interface and a monitoring device 15, which also as

Serving control device is the manipulated setpoint for the state of the component in question 8 to the component 8 of the electrical switchgear. 3

forwarded or a setpoint corresponding control signal to the relevant component 8 are forwarded, so that in the following her state on the

Setpoint changes.

The features of the invention disclosed in the foregoing description, in the drawings and in the claims may be essential to the realization of the invention both individually and in any combination.

Reference numeral: Control cabinet arrangement

Switch cupboards

Electrical switchgear

Human-machine interface

Optical display

circuit diagram

Data Interface

component

component symbol

Machine-readable identifier

sensor arrangement

Locks

actuator

deadbolt

monitoring device

processor

Storage

Drawing pocket

door

mounting plate

Claims

Claims:

Control cabinet arrangement (1), the at least one control cabinet housing

(2) with an electrical switchgear

(3) and continue a human-machine interface

(4) with an optical display

(5), via which a circuit diagram (6) of the electrical switchgear (3) is indicated, wherein at least one component (8) of the

electrical switchgear (3) has a machine-readable identifier (10), via which the component (8) a characteristic component symbol (9) in the circuit diagram

(6) is uniquely assigned, with a data interface

(7) formed between the man-machine interface (4) and the electrical switchgear (3) and a state of the component (8) based on an optical state of

Component symbol (9) via the optical display (5) is displayed.

Switchgear assembly (1) according to claim 1, wherein the human-machine interface (4) is a bidirectional interface, via the at least one actual value of the state of the component (8), for example, a sensory detected measured value, to the man-machine interface (4) forwarded and if necessary via the visual display (5) is displayed and / or via a user input of the machine interface (4) detected setpoint of the state of the component (8) to the component (8) or a component (8) control unit is forwarded inside.

Control cabinet arrangement (1) according to Claim 1 or 2, in which the optical state of the component symbol (9) can be manipulated via the man-machine interface (4), corresponding to a successful manipulation of the state of the

Component symbol (9) generates a state change signal and to the

Component (8) or a component (8) controlling control unit

is forwarded. Switchgear assembly (1) according to one of the preceding claims, wherein the electrical switchgear (3) is accommodated in the interior of the at least one control cabinet housing (2), wherein a sensor arrangement (11) is arranged with at least one sensor, at least one measured value of the at least one electronic component (8) of the electrical switchgear (3), wherein the measured value or an optical output derived therefrom on the optical display (5) locally to the component

(8) characterizing component symbol

(9) is assigned assigned.

Switchgear assembly (1) according to one of the preceding claims, wherein the electrical switchgear (3) has a component (8) with a component (8) uniquely identifying machine-readable identifier (10), wherein the man-machine interface (4) thereto is set up after reading out the identifier (10) and identifying the identifier

(10) marked

Component (8) to visually highlight the component symbol (9) representing component (8) in the optically displayed circuit diagram (6) and / or output at least one measurement or characteristic value concerning the component (8) via the optical display (5).

Switchgear assembly (1) according to one of the preceding claims, wherein the component (8) is a door lock (12) of the control cabinet housing (2), which comprises an actuating member (13) for adjusting the door lock (12) between a

Open position and a closed position, wherein the door lock (12) has an electronically controllable lock bolt (14) which assumes a locking position in its first state, in which it locks the actuator (13) in the closed position, and in its second state a Release position occupies, in which he releases the actuator (13). Switchgear assembly (1) according to one of the preceding claims, wherein the component (8) is a PDU, via which at least one further electrical

Component (8) of the electrical switchgear (3) is supplied with electrical energy, and with which the at least one of the further component (8) relevant state, in particular a measured variable detected and via the data interface (7) to the man-machine interface (4) is forwarded.

Switchgear assembly (1) according to one of the preceding claims, comprising a monitoring device (15) which is adapted to monitor the respective state of a plurality of the components (8) of the electrical switchgear (3) and, if a change in state of at least one of the components (8) is detected, the optical state of the respective characterizing

Component symbol (9) in the circuit diagram (6) to update, so that an updated circuit diagram (6) is generated.

The cabinet assembly (1) of claim 8, further comprising a processor (16) having read / write access to a non-volatile memory (17), the memory (17) in or on the at least one cabinet enclosure (2) having the electrical switchgear (3), in particular on a on the inside of a door (19) of the control cabinet housing (2) fixed Schaltplanasche (18) is arranged, wherein the processor (16) is adapted to the updated circuit diagram (6) in the non-volatile read-write Memory (17) to write.

Switchgear assembly (1) according to one of the preceding claims, wherein the man-machine interface (4) is adapted to detect a change in the electrical switchgear (3), in particular the addition or removal of an electrical component (8), and this Change in the wiring diagram (6).

11. Switchgear assembly (1) according to claim 10, wherein the man-machine interface (4) has an input, such as a touch-sensitive visual display (5) on which the circuit diagram (6) is displayed, or an optical

Detection device, such as a photo module having a component detection, wherein the component detection is adapted to the

detect machine-readable identifier (10) of the components (8) of the electrical switchgear (3) and to detect a change in a component assembly of the electrical switchgear (3) by comparison with the circuit diagram (6).

12. Operating method for a switchgear assembly (1) according to one of the preceding claims, comprising the steps:

Selecting a specific electrical component (8) from a plurality of electrical components (8) of the electrical switchgear (3) of

Control cabinet arrangement (1) by reading in the identifier (10) of the specific component (8); and

Displaying the circuit diagram (6) on an optical display (5) of the human-machine interface (4), wherein a state of the component (8) based on an optical state of the particular component (8) characterizing

Component symbol (9) via the optical display (5) is displayed.

The method of operation of claim 12, wherein the displaying comprises retrieving the state of the particular component (8) directly from the particular component (8) or from a monitor (15) in which current and / or historical state data at least concerning the particular one Component (8) are kept.

14. A method of operation according to claim 12 or 13, wherein for a change in the state of the particular component (8) state change data or Status change commands via the man-machine interface (4) and input via the data interface (7) to the specific component (8) directly or indirectly via a controlling this control unit, the part of the electrical

Switchgear (3) is forwarded.

15. Operating method according to one of claims 12 to 14, wherein the certain

Component (8) a door lock (12) with an electronically controllable

Schlossrigel (14), which assumes a locking position in its first state in which it locks an actuator (13), and in its second state assumes a release position in which it releases the actuator (13), wherein the method further Enter a release command or a

Locking command via the man-machine interface (4), whereupon the lock latch according to the command in the release position or the

Locking position is transferred.

An operating method according to any one of claims 12 to 15, comprising changing the state of the particular component (8) and storing the changed state by changing the optical state of the identifying component symbol (9) in the circuit diagram (6).

17. A method of operation according to any one of claims 12 to 16, comprising continuously or periodically monitoring the respective state of a plurality of the components (8) of the electrical switchgear (3) and, when monitoring

Change of state of at least one of the components (8) has been detected, the continuous or periodic updating of the respective optical state of the respective characterizing component symbol (9) in the circuit diagram (6).

18. A method of operation according to claim 17, which provides the deposit of the updated

Circuit diagram (6) after a change in state of at least one component (8) of the electrical switchgear (3) in a non-volatile read-write memory in or on the at least one control cabinet housing (2) with the electrical switchgear (3), in particular on one of the inside of a door (19) of the Control cabinet housing (2) fixed Schaltplanasche (18) is arranged.